Knitting-machine.



E.A.HIRNER.

KNITTING MACHINE.

APPLIOAIIOH rn-nn MAY 22, mos.

1,026,206. Patented May 14, 1912.

13 8EEETB-8EBET 2.

ll! HI INVENTORZ.

z M/ 5/1111. .6. luff/YER E. A. HIRNER.

KNITTING MACHINE.

APPLICATION FILED MAY 22, 1908.

I 1,026,206. Patented May 14, 1912.

INVENTORZ 5mm 1111/51/55,

WITNESSES:

A. HIRNER. KNITTING MACHINE. APPLICATION FILED MAY 22, 1908.

Patented May 14, 1912.

13 SHEETS-SHEET 4.

INVENTORI v 50411. fl. flJfilVE/T,

E.A.HIRNER.

KNITTING momma. APPLICATION FILED MAY 22, 1908.

. Patented May 14, 1912.

13 SHEETS-SHEET 6.

260 2 IlGI T nail A w 1 13* I I 155 riil 1! J 146 WWQ v +21 -21 ITNESSESI y 323225 7 a7 '7 fi@ r/lf/ E. A. HIRNBR.

KNITTING MAOHINE.

APPLICATION rmm MAY 22, 1908.

1,026,206. Patented May 14, 1912.

13 SHEETS-SHEET 6.

Han

WI'TNESSESZ INVENTORL B. A. HIRNBR.

KNITTING MACHINE.

APPLIOATION FILED MAY 22, 1908.

Patented May 14, 1912.

NH ms Will/m 1.;

HSwmUNKN B. A. HIRNER.

KNITTING MACHINE.

APPLICATION FILED MAY 22,1908.

1,026,206. Patented May 14, 1912.

13 SHEETS-SHEET H.

Flam I INVENTORI E.A.HIRNER KNITTING MACHINE;

APPLICATION FILED MAY 22, 190B.

Patented May 14, 1912.

13 SHEETB-BHEET 10.

INVENTORI 501/1. .19. fiJfZ/YEIZ 41M;

a I\\ a 5 fi 4| 1% 1 E m.

E. A. HIRNER.

KNITTING MACHINE.

APPLIOATION FILED MAY 22, 190B.

7 1,026,206. Patented May 14, 1912. 13 SHEETS-SHEET11.

EJ619007 FIGM 033405 fl w WITNESSES;

E.A.HIRNER.

KNITTING MACHINE.

APPLICATION FILED MAY 22, 1908. 1,026,206. Patented May 14, 1912.

13 SHEETS-SHEET 12.

4 Q g Q s IT ESSE INVENTOR: 17576 J M EM/L .11 HIE/V517,

I Z Z Z E. A. HIRNBR.

KNITTING MACHINE.

APPLICATION FILED MAY 22. 1908.

Patented May 14, 1912.

13 SHEETS-11331 13.

WITNESSES: INVENTORI 7 5 m. fl. 1115mm,

' UNITED STATES PATENT OFFICE.

EMIL A. HIRNER, or ALLENTOWN, PENNSYLVANIA.

KNITTING-MACHINE.

Specification of Letters Patent.

Patented May 14, 1912.

Application filed May 22, 1908. Serial No. 434,298.

# all whom it may concern Be it known that I, EMIL A. IIIRNER, of

- Allentown, in the county of Lehigh and mecham at certain points in the knitting operation,

one of the threads with which the knitting has proceeded is withdrawn from the needles.

My invention comprises the related mechanism whereby the intervals of withdrawal of the threa s may be varied according to any predeter ined pattern.

It further comprises mechanism whereby individual needles are controlled according to any predetermined pattern;

I have shown in the drawings, and will proceed todescribe an embodiment of myinvention ,in which it is applied to a circular stoc (in -knitter of standard construction for the, kn1tting of multi-colored hose; but

it must be understood thatmy invention is not thus limited in applicatlon, but may be applied to the changing and withdrawing ofthreads in any sort of a knitting machine. In the accompanylng drawings, Figure I,

. is a plan view of a machine conveniently embodying my invention. Fig. II, is a sideelevation, omitting the bobbin carrier, looking from the bottom of Fig. I. Fig. III,

is a side elevation looking from the top of Fig. I. Fig. IV, is a staggered plan sectional view taken on the lines IV, IV, in Figs. II, and III. Fig. V, is a vertical sectional view taken on the line V, V, in Fig.

- I, drawn to a larger scale. Fig. VI, is a fragmentary vertical sectional view taken on the line VI, VI, in Fig. I, also enlarged. Fig. VII, is a fragmentary vertical sectional view taken on the line VII, VII, in Fig. I.

Fig. VIII, is an enlarged plan view of the swinging table which carries the bobbins, the thread changers and thread guides, the bobbin spider being omitted, however, to avoid complication. Fig. IX, is a sectional view taken onthe line IX, IX, in Fig. VIII. Fig. X, is a sectional view taken on the line X, X, of Fig. VIII, showing the cam cylinder in elevation as seen from the bottom of Fi I. Fig. XI, is a fragmentary sectional p an viewof the machine taken on the line XI, XI, in Figs. II,'III, and V, the needle cylinder being removed. Fig. XII, is a plan sectional view on the line XII, XII, in Fig. II,'showing the jacks for controlling the pattern to beknit by the needles. Fi XIII, is a fragmentary elevation of the s ell mclosing the pattern jacks, showing the levers which operate said jacks.

Fig. XIV, is adevelopment of a portion of the patternjacks. Fig. XV, shows a portion of the fabric as knitted according to the arrangement of the jacks in Fig. XIV. Fig. XVI, is a development of the jacks which control the thread changers. Fig. XVII, is a development of the cam cylinder showing the needles in the osition they would occupy during the kn1tting of the pattern. Flg. XVIII, is a sectional view through the raising cam taken on the line XVIII, XVIII, in Fig. XI. Fig. XIX, is,a sectional view through the needle cylinder .clamp on line XIX, XIX, in Fig. XII. Figs. XX, and XXI, show two of the several kinds of pattern jacks. Figs. XXII, and XXIII, are elevations of the tripping means for causing the shifting of the belt. Fig. XXIV, is a sectional view taken on the line XXIV, XXIV, in Fig. XXII.- Fig.

XXV, is a view showing the various forms of jacks contained in the pattern wheel controlling the thread changers. Fig. XXVI,

is a section on line XXVI, XXVI, in Fig.

VIII. .Fig. XXVII is a detail of one of the cams for the pattern jacks.

In order that the drawings may be more easily understood, it will be convenient to first enumerate and refer to the fixed parts by which the mechanism proper is supported, although these parts are not essential to my invention, as the moving mechanism may besupported in any way which is found conven ent. I will therefore first specify these parts :-The mountings,'the bed plate 1, Wl'llCll carries the knitting cylinder, is of circular outline, with a left-hand wing-plate 2, a right-hand wing-plate 3, and a rearwardly projecting ledge 4. To the right of wing-plate 3, a de endent plate 5, is secured, and to this depen ent plate is secured a journal plate 6, so as to be below and in front of the wing-plate 3. A depending guardplate 8, is secured to the under side of the wing-plate 3, at its left hand side, and between the guard plate 8, and the-depending plate 5,111.5 'ourn'al block 9, issecured to.

ported by wide side standards 21, 21.

the under si e of said wing-plate. To the right of plate ,5, is secured an irregular journal casting 10, behind said plate is the irregular cap piece 11, and in front of this plate is secured the guard plate 12. On top of the wing-plate 3, is an upright standard 14. The left hand wing-plate 2, carries centrally a large sleeve 15, which passes through it, projecting both above and below itll of the foregoing parts find their support in an octagonal table 20, which is sup- Its top is cast with two intermediate longitudi- 5 nal ribs 22, 22, between which the top is 26, one on either, side.

The comprehension of the mechanism of my invention as I have illustrated it will be facilitated by dividing its description into groups as follows :-I. The parts which re-- late to the knitting mechanism proper. 'II. The thread changing mechanism. III. The cam plate which actuates the levers and its a reciprocating mechanism. IV. The pattern wheel and its pawling mechanism. V. Pattern jacks for individual needles and con.- trolling, mechanism therefor. VI. Mecha nism or controlling plating cam. VII. Mechanism for, puttinginto action the raising cam for the half back needles. VIII.

'Mechanism for changing rotation to oscillation. IX. Mechanism for operating thelowering cam for the instep needles. X.-

Mechanlsm for operating pickers to lower the half back needles. XI. Mechanism for shifting the belt. XII. Means for clampin the needle cylinder. XIII. Cams for raising all the needles.

I. The parts which relate to the kn-z'ttiad mechanism proper.The main shaft 30, of

the machine runs transversely beneath win late 3. It is journaledtoward its left en in journal, block 9, and toward the right end in journal casting 10. The ri ht hand projecting extremity of this she t has detach-' ably keyed to it a hand lever 31,-by'which the shaft may be turned by hand. 7 The left hand extremity of this shaft carries the'vertical bevel gear wheel 32, which meshes with a corresponding horizontal circular rack formed on the lower edge of an annular flange 33, which is mounted upon and rotates centrally within bed .plate 1. The

- flange 33, has formed upon it the rotating cam-cylinder 34. The'needle cylinder 35, is

sustained fixedly within the cam cylinder.

Shaft 30, carries twin fast and loose belt pulleys 36, and 37. Pulley 36, is fast to the shaft and is the ordinary driving pulley of the machine.

Pulley 37 runs freely upona projecting sleeve of pulley 36, as clearly shown In my U. S. Letters Patent No. 794,407, dated July 11th, 1905. -The purpose and operation of said pulley 37, is the same as that set forthin the above patent. The needles, indicated by 38, and 39, work vertically in needle grooves around the eriphery of the needle cylinder under the 1nfluence of the cams of the camv cylinder;

The knitting cams and other cams on'the cam c linder are shown in'Fi XVII, and are su stantially the. same as s own and described in my U. S. Patent No. 753,260,

dated March 1st, 1904. Itwill be understood that the cam cylinder is furnished, in

addition to the ordinar knitting cams, with needle shifters or pic and with mechanism for throwing them into and out of action at the proper time, by means of which -acontinuous tube i's-formed by the-continuous rotation ,of the cam cylinder around the needle cylinder, while at pro er'intervals' the machine is caused to osclllate and heel-and toe pockets are formed in the tube in awell known manner.

H. The threaol aha/aging "mechanism- The immediate thread changing mechanism ismounted uponthe rotary late 40, which is so mounted as to rotate in the swinging table 41; Above the rotary plate. 40., are mounted the. bobbin carriers, and said' late and the swinging table aremounted an con-.

trolled in the, manner set' forth in my Pat ent No. 794,407, above nrle'ntion'ed': Over the hole 42, at one sideof the center ofthe ro- -tar'y plate 40, is located the thread changing mechanism which consists of the feur pivoted levers 43, 44, 45, 'and 46, having their swinging extremities turned up and pierced with thread eyes. These levers are mounted upon 7,

apivot pin 47,'which is supported at each end in-the horizontal bars 48, and 49, which rest upon the upper surface of the rotary table 40, and their swinging ends when in their lowered position operate to hold their respective threads in the lower end of the V-shaped slots 50, 51, and 52, formed in the plate 53, held within the depending cylin-q rical flange 54, on the rotary plate 40. The

lower end of each of saidV-shaped slots is enlarged to form' a thread carrier. The bars 48,"and 49, car a depending wire yoke 55, with its ends a justably secured in them by set screws and having sufficient depth for its cross piece to form a restwhich catches the swinging extremities 'of the thread changers when they are de ressed. The upper sideof each thread dh vance 0 its pivotandwith its top beveled tion of these parts willjbe explained in conanger carriesa short upright post 56, set] slightly in ad- I to'ward'the p1vot (see Fig. X The .f nc- 1 8 nection with the description of the operation of the levers which control the thread changers. The bar 48, carries an upwardly and laterally projecting wire arm 57, held in place by, a set screw and pierced by thread apertures. A second upwardly extendin and laterally projecting arm 58, is supported by the bar .49, and s pierced with four thread eyes. A post 59, projects from the upper side of the bar 48, and forms a support for the stop wire 60, and the pivot wire 61, these wires being maintained in place by set screws. The wire 61, forms a. pivot for the thread lock 64, which is weighted at its outer end, and the stop wire 60, holds said thread lock in a nearly horizontal position when the thread is passing through as shown in Fig. X. Mounted on the upper side of the plate 40, on the opposite side of its central aperture 65, from the devices above described, is the post 66, having mounted therein the vertically adjustable stem 67.

' Adj ustably mounted upon the stem 67, is the bar 68, forming two laterally extending arms 69, 70, each rovided with a milled tension screw 71. 1 mm the tension spring 72, which encircles the arm 69, extends the take-up 73, terminating in the elongated eye '74, which is approximately over the swinging extremity ofthethread changer 44. A horizontal stop wire 75 is made fast at one end to the bar 49, by the screw 76, and prevents the take-up arm from descending too far.

3:} -The. bobbin carrier has been omitted as it changers are successivel forms no part of my present-invention and may for convenience be similar to that shown in U. S'.Patent No. 794,407, above referred to.

It will now be convenient to trace the courses of the threads after leaving their respective bobbins. The body yarn 80, passes through the thread eye 81, in the arm 58, thence through one thread aperture in the thread changer 43, and thence through the thread groove 52. The reinforcing or heel yarn 82,-passes through the thread eye 83,

in the arm 57, thence under the stop wire 60, thence through the thread aperture in the thread lock 64, to the loop 74, of the take-up 73, thence through the eye in the swinging extremity of the thread changer 44. and thence through the thread groove 51. The platin yarns pass through the thread eyes 84, an 85, in the arm 58, thence through the eye in their respective thread changers 45, or 46, and thence through the thread groove 50. It will thus be seen that by depressing any thread changer its thread is carried to the lower end of the corresponding thread groove where it is fed to the needles.

The mechanism by which the thread depressed and raised, wherby the threa s are successively throwninto and out of action, will next be described. The upright post .110, which is set in plate 40, in-proximity to the aperture 42, has pivoted upon it five levers one above the other. The lower two levers86, and 87, control the plating yarns and each has three arms. The long arm of .the lever 86, has a lateral projectlon 89, which is provided withan upwardly projecting stud 90. Said lever has a cam arm 91, and a short arm 92. The long arm of the lever 87, has a lateral projection 94, having an upwardly projecting stud 95, arranged to engage the edge of the lateral projection 96, on the long arm of the lever 98, also pivoted about the post 110. The long arm of the lever 100, has a lateral pro'ection 101,provided with. a depending stu 102, which is adapted to engage theupwardly projecting. stud 103, i

on the lateral projection 96. The lever 104, has a long arm similar to those of the other levers, but without a laterah projection and is directly under lever 99, in Fig. VIII. An upright post 105, set in plate 40, serves as a stop for all the levers in one direct-ion. Their motion in the opposite direction is opposed by springs 106, one for each lever. Levers 86, 87 104, and 98, have short arms 92, 107,

.108, and 109, respectively which decrease in length from the lever 98,'to the bottommost one, so that their extremities correspond successively in position tothe pivoted ends of the four thread changers 46, 45, 44, and

43, each thread changer thus having the extremity of one of the arms playing directly over its pivot. In the extremity of eachof the arms 107, 108, and 109, is set adepending post 112, terminating in a shoe 114. The length of the post is in each case. such that its shoe reaches to the top of the square end of the thread changer to which it corresponds.

The position of the levers is such that, their motion within the limits about to be described causes the short arm of each one,-

with its shoe, to slide over the top of its thread. changer from one side of the pivot 47, to the other so that when said short arm is in its outermost position its thread changer is raised by the pressure of its shoe against the end of the thread changer beyond thepivot, while when the lever is in its: innermost position its thread changer is depressed by the pressure of its shoe againstthe top of the post 56, with the bevel of which it has come in contact. Levers 87, 104, and 100, each have. a cam arm similar to the cam arm 91, of the lever 86. As plate 40, rotates movement of the levers pivoted about the post 110, is caused by con- .12

tact of their cam arm with a vertically movable cam plate 115, having a cam edge 116.

According as this cam is raised or depressed by mechanism to be described, said levers as they are rotated come into contact with cam edge 116, and depress their thread into its thread'carrier.

changers, throwing the corresponding thread The movements of these levers are not independent of oneanother and for controlling them the following mechanism is provided A pair of trigger plates 120, 121, are pivoted to plate 40, on the upright post 122. A

spring pressed plunger 124, mounted in the bearing block 123, presses against the trigger plate'120, passing through hole in the plate 126, which is attached to the trigger plate-121. The spring pressed plunger 125.

also mounted in the bearing block 123, presses against the plate 126', and the movement of said trigger plates is limited bythe post 127, mounted in the plate 40. The tripping extremity of each trigger plate is i V blunt at the end and furnished with a beveled surface at the side. tends above the top at the trigger plate 120, and is adapted to be engaged by the long arm 99, of the lever 100, whereby when said long armis swung outwardly the'lower trigger plate 121, moved to release the long arm of either of the levers 86, and 87,

which has been held by the blunt end of said trigger plate.

When the height of the cam surface 116, is

such as to engage the cam arm of the lever 100,.said cam arm is swunginwardly and the long arm 99, is swung outwardly. The stud 102, engages the stud 103, and the long I arm of lever 98, is swung outwardly to be swinging in the short arm 108, to-depress the thread changer and swing out the long arm of the lever 104. When this long arm is .moved out along the bevel surface of the trigger plate 120, the long arm of 98, is freed from the blunt end of said trigger plate and swings inwardly under the actlon ofits spring 106, and its short arm 109, swings outwardly to raise the thread 1 changer 43, thus throwing the body yarn out of action, If now the cam surface 116, be brought to such a height as to engage either of the cam arms belonging to the levers 86, and 87, the long arm of the corresponding lever is swung outwardly and its upwardly extending stud engages with a co-acting member on the lever 98, and thus its long arm is swung outwardly with its end gliding along to bevel surface on the trigger plate 120. Y The long arm of the levery104, is'

thrown out and the body yarn and a plating yarn thrown in by the action of the short arms which control the respective thread changers;

By the operation of the parts which have The plate 126, ex-

pivot for attachment of link 135;

thus far been described the'proper change ln-vertical position of-the cam late'11'5,

throws any desired thread into 1ts thread guide and simultaneously removes'any other thread which may be necessary to produce the desired knitted fabric.

The thread changing mechanism above described is shown," described and claimed r se in my co-pending #434,297, filed May 22nd, 190s.v

The thread end guide and the cutting mechanism whereby the loose end of each thread thrown into and out of action is at the proper point out and held ready for further use,'may be similar to that shown and described in my] said Patent No.

application, 0

794,407, and need not therefore be herein described. I

III. The cam-plate which. actutttes the levers and its reciprocating mecham'sm. This, together with the pattern-wheel to be described, is the mechanism by which the height of cam'pht'e m y be varied with.

each rotation of the k nitting machine, and thereby the succession (lflthe multiple knitting-threads varied in accordance with any predetermined pattern. 1

In the journal-flanges 26, of the table 20,

oscillated by a lever-arm, 131, set on its is journaled the rock shaft 130, which 'is right-hand end, to which arm is pivoted the extremity of aneccentric-rod 132, carrying I a strap which surrounds an eccentric 134,

situated on the main shaft 30. The lever ar'm 131'extends beyond the pivot of, the eccentric-rod and is pivoted to a link 135,

the other end ofwhich is pivoted to one corner of the swinging end of the irregular flat rockinglever 136. this lever has depending lugs in which is set its transverse pivot-shaft 137, rocking The rear edge of in journal-boxes on the table 20. The forward or swinging end of the lever 136, is expanded. laterally and carries a transverse pivot-rod which to the right forms the upper surface of said lever 136, is yieldingly fastened the strap 138, by means of the screws 139 and 140. About the screw 140,

andbetween the strap and the lever is placed a small coiled spring which forms a cushionfor said strap. The free end of said straps is offset to form a step 142,.which.co-

operates with the mechanism for raising and lowering the cam 115. A'triangular plate 143, is mounted upon the large upright post 144, which rises centrally fromthe table 20.

The front edge of this plate is forked,

throwing forward two arms with depend ing bosses V145, and. 146, within which slide vertical rodsv 148, and 149, fixed to the under side of plate 150. To the underside of plate 150, is screwed the cam plate 115, the vertical position of which determines the actuation of the levers mounted about the post 110 To the lever 136, is moved u and down, reciprocat-' ing slide rod 149, an with it plate 150, and therefore cam-plate 115. To' maintain proper co-action between'the plate 150, and

the lever 136, the coiled spring 160, is provided having its upper end attached to said plate and its lower end secured to the strap 138. The extent of'the depression of the cam-plate. 115, at each reciprocation is limited by the contact of a depending vertical post 161 with a flattened lower end set adjustably in the plate 150, with the peripheral pattern-jacks of a pattern wheel 162, to be described later; on. The cam cylinder of the knitting machine is geared to the in-' her shaft. in such relation to eccentric 134, that when the machine is in the position in i which the further rotation of the plate 40, is

about to bring the cam arms of the levers which are mounted about post 110, in position to be acted on by the cam edge of the cam 115, the eccentric has almost reached the end of its traverse and is about to depress the slide rod 149, to its utmost extent so that at the moment of contactof one of said cam armswith cam plate 115, the latter will be held down under the tension of spring 160, to the utmost extent allowed by that one of'theperipheral pattern jacks of the pattern wheel 162, which at the time is beneath post 161.

IV. The pattern wheel and its pawling mecham'sm.-Pattern wheel 162, is a large metal wheel mounted horizontally on the large upright post 144, which rises centrally from the table 20. Upon each side of the triangular plate 143, is a boss 163, within which a sleeve 164, is adjustably secured by means of'a set screw 165; and within each sleeve is a spring pressed plunger 166, which bears upon the upper side of the wheel 162, to steady its motion. A plate 151, is secured to the upper side of the two arms of the forked end of the plate.

143, and forms a guide for the upper end of the slide rod 152, which has a yoke 153, secured to-its lower end. A yoke 154, having laterally extending arms 155, and 156, is adjustably secured to the slide rod 152, by means. of set screws 157. Springs 128, and 129, attached to the yoke arms and ledge 4, tend to draw yoke 154, down. The yoke 158, is secured to the slide rod 152, below the yoke-154," and forms a support for a depending rod 159, having its lower end adapted to be engaged by" a step 142, of the strap 138. The angle bracket 168, is fastened to'the rear of the arm 156, and its horizontal arm forms a support for the depending post 169, which coiiperates with the upper ends of the pattern ]&0k8 170. The

right hand end 167, of the horizontal arm of the angle bracket 168, see Fi VII, moves in a groove 171, formed. in t e plate 172, which is mounted upon the upper side of the triangular plate 143, thereby guidin the up and down movement of the slide ro 152.

The periphery of the pattern wheel 162, is cut by a large number of radial ,slots,'in which are set pattern-jacks as seen in VII; said pattern jacks having a variety of shapes, as shown in Fig. XXV. The jack 173, is the form most commonly employed. The lower end of the post 169, en-

gages the top edge 174, of each jack 'and the lower end of the post 161 engagestthe step 175. This form of jack does not allow the posts 161 and 169 to be lowered below what may be termed their idle level, When the jacks are set in place in their slots, they entirely fill them, with only their steps projecting. They are retained in their slots bya split rin '176, surrounding the wheel and passing t rough lugs 177, on the periphery of said wheel. Said s lit ring is tightened by means of nuts 17 against said lugs 177. Below the split ring 8, bearing 176, each of the walls between the slots is cut away as at 179, as a consequence of which the bases of the pattern-jacks when set'in place form a rack, converting this part of the wheel into a ratchet wheel.

Jacks 180, 181, 182, 183,184, 185, and 186, allow the post 169 to descend to various levels for controlling theposition of another set of pattern jacks which control the movements of individual needles, as will be hereinafter explained. Jacks having steps 187, or 188, are also located at suitable intervals about the pattern wheel for limiting the downward movement of the post 161, which controls the movement of the cam 115. It will thereforebe seen that by filling the slots of the pattern wheel 162, with jacksin the proper order of succession, the

pattern according to which the changing of the threads of the knitting is to be effected is made. For every rotation of the machine in which a change of thread is to be made the corresponding jack is set in the proper slot of the wheel, while the intermediate slots are filled with jacks 173, which prevent any change of the thread.

-In order to effect the pawling of the pattern wheel 162, the horizontal pawling lever 190, is pivoted to the top of table 20, on screwpost 191. On .top of this lever,

near its swinging extremity, rises an upright sleeve 192, in which rotates freely a vertical post 193. The upper extremity of this post has pawl 194, set transversely through it by a set screw 195, the swinging end of the pawl playing up'onthe ratchet wheel formed on pattern wheel 162, by the of. the machine, cam roller 203, oscillates bases for the jacks, as has been explained. The pawl is kept pressedagam'st the ratchet wheel by the tension of the coiled spring 196', surrounding the sleeve 192, and made 1 the "pawling motion is effected, is imparted this contact the lever is thrown-to the right I .in opposition to coiled spring 201, a sufli-' fast to it atone end, while its other end is made fast to a set screw 197, which secures the collar 198, to the post 193. Lever 190,

, has a projecting arm 200, to the] end of which a coiled spring 201, is attached, the

,other end of the spring being fast to post 202.f The oscillation of lever 190, whereby to it by the swinging cam roller 203, which intermittently comes into contact with an inclined cam surface 204, on the left hand side ofthe forward end of'lever 190. By-

cient distance to advance the pattern -wheel to the extent of one slot.'. This cam roller 203, is mounted on the end of a rocking arm 205, made, fast by set screw 206, to the 1 left hand projecting extremity of rock shaft I of the knittin 130. -'As this shaft rocks under the action of the eccentric 134, once for each rotation lever 190, so as to advance the pattern wheel to the extent f one slot for each rotation cylinder. In order toset the pattern wheel correctly for starting, a pawl v388, is provided which engages a notch 389, in said wheel.

V. Pattern jacks for individual needles and controlling mechanism therefor.In

order to control'the movements of the individual needles for the production of. designs, I provide a-circular series of jacks whioh. are slidably mounted inradial slots cut in-ajack' ring 210. I will describe the jacks necessary for the production of the letter E, of the word shown in Fig. XV,

and it will be understood that the other let-.

ters may be produced by providing similar jacks suitably notched. By, reference to,

Fig. XV, it will be seen that the letters are all fourteen courses high, and maybe divided into seven regions of two courses each.

.The jacks which control the needles. for

knitting the first letter E in the word Excelsion, are numbered 211, to 218, in-.

elusive. The needles for forming wales 220 to 227, inclusive are controlled by the jacks 211 to 218 respectively. 'The jack 211, is

shown in Fig. XX, and comprises a piece of sheet metal having one edge formed with notches 228, 229, 230, and projections 231, 232.. When in positionin the jack ring 210,

1 the .inner ends of the notches in the jacks are flushwith the outer periphery of said ring. The opposite edge is formed with a hook 233, which engages the bottom of the I needlewhich it controls to raise saidneedle when the beveled face 234, enga s' the .up-

per side of the cam 235'. The ae ring 210,

is stationary and mounted concentrically about the lower end of the needle cylinder upon the bed plate 1, and within the annular flange. 33. This flange is cut away to provide an opening through which the'pivoted levels 236 to 242, inclusive, may act upon the j ackswithin the jack ring 210. Each of said levers has one end engaged by a .spring finger 243,- which tends to Y withdraw the other end ofv the lever from engagement with the jacks. The inner face 244, of each lever is shaped to act as a guide or cam for forcing the jacks radially inward as will be hereinafter explained. Each of said levers also has a cam end 245, which is adapted to be engaged by the-cam 246, carried by the plate 247. Said plate 247, is secured to the underside of the angle bracket 248, which in turn is attached to'the slot-ted link 249, secured in slidable relation to a link 250. Said link 250, is adjustably secured to the depending plate 251, fastened to the outer end of the arm 155, on the'yoke 154. .A coiled spring 252, fast at its upper end to the arm 155, and-at its lower end to the plate 247, operates to pull the. cam 246, up when released after having been forced down to act upon the levers which coiiperate with. the pattern jacks in the jack ring 210. The

plate 247, is pierced near its end to receive the upwardly extending guide post 253, and on its under side is the depending plunger 254, sliding within the sleeve 255, and having a cushioning washer 256, and anut 257, at its lower end to'prevent plate 247, from rising too high under the action of spring -252. The lower right hand edge of the slotted link 249, is formed wit-h teeth 25.8,

which are adapted to be engaged by the teeth 259, of the plate 260, mounted upon the sliding link 261.

,ment of the cam 246, is'limited by the en- ;gagement of the post 169, with the upper iend of the jacks in the pattern wheel 162. IWhen the post 169, engagesthe top of jack ,189, the slide rod 152, is lowered and. with.

itcam 246. Said cam 246, is maintained at the level to which it has been depressed for instance that of lever 236, by the engagement of teeth 258, and 259, until the cam arm 245, of said lever is engaged by said cam 246, and lug 263, is struck by crank arm I 131, whereupon, the teeth 258, and: 259, be-

come disenga ed and earn 246, is under the act on of spring 252, until washer 256, engages the lower end of sleeve 255'.

drawn Y up This places cam 246, high enough to "pass above the cam arm of the upper lever 242. When cam 246, engages cam arm 245, of

lever 236, its cam surface" 244, is forced in-- wardly as'shown in Fig. XII. Each lever is maintained in its inner position by a catch 299, which is pressed by the spring pressed plunger 300. At the upper end of catch 299, is a laterally pro ecting finger 301, adapted to be engaged by finger 302, on shaft 271. As a new lever is forced behind sa'id catch any lever heldthereby is freed under the action of its spring finger 243. As cam cylinder 34, rotates, the cam surface 244, passes across the outer end of the pattern jacks in jack rin 210. Those jacks having. portions extendlng sufficiently beyond the-outer eriphery of jack ring 210, and-in line witr the cam surface 244, of lever 236, are forced radially inward by said cam surface. These jacks having notches in the'path of'movement of said cam surface are not effected thereby and consequently remain in their outer position.

' By reference to Fig. XIV, it will be seen that the jacks 211 to 218 inclusive are notched at their lower end and are therefore not affected by lever 236. The other jacks are affected or not according to the location of their notches. *Those jacks which are forced inwardlyby the levers have their beveled faces 234, brought into contact with cam 235, whereby the inner ends are pushed upwardly asshown on the right hand side of Fig. VI. The hook 233,.then engages the bottom of the needle above it and forces it up to the level 219, so that it may take the plating yarn fed through slot 50, and the body yarn fed through slot 52. Those jacks having slots opposite a lever are not pushed inby said lever and consequently their book end is not raised to ush up the corresponding needle, such needles therefore do not rise high enough to take the lating yarn, but merelythe body yarn, and the platingyarn is floated. Thus the plating yar'n does not appear on the face ofthe fabric and consequently the body yarn alone shows to produce the pattern. After the jacks pass beyond the cam 235, they are met by cam 264,

which is secured to the under sideof the I horizontal flange of the cam cylinder. This cam fits within the notches 238, in the upper edge of the jacks and operates to draw said jacks to their outward position. A cam 278, similarly mounted in said flange, having one end beveled at 279, then engages the acks upon their upper edge and causes all to re-' inain level while passin 4, and has three upwardly projecting bosses 267, 268, and 269, which form a support for the journal bracket 270, in which is journaled the horizontal shaft 271. Upon this shaft is mounted the plate 272, to which the cam plates 273, and 274, are adjustably secured. The plate 27 2, has a rearwardly extending projection which is adapted to be engaged by the post 275, when said post moves downward sufficiently. The engagement of post 275, with said rojection causes the cam plates 27 3, 274, to he raised to control the movement of the plating cam265. For maintaining late 272, in its upper position as shown in ig. VII, a rearwardly extending arm 276, is fastened to shaft 271,

said arm having one end of a coiled spring 277, attached thereto; The other end of spring 277, is attached to the yoke arm 156. A' vertical shaft 280, has its upper end guided by plate 151, and its lower end passes through a boss 281, on plate 270. About this shaft the three fingers 282, 283, and 284,

are mounted. A coiled spring 285, is fast at one end about the post 286, and at its other end to the fin er 283. This spring rotates shaft 280, su 'cientlyto cause finger 284, to bear against the arm 27 6, and to engage its upper face at the outer end to maintain cam arms 273, and 274, in a raised position when they have been raised by the mechanism already described. Said finger 284, has a step 287, formed in its outer extremity which fits a projection 288, on arm 276. When step 287, rests upon the top of projection 288, cam plates 273, and 274, are maintained in their uppermost position, and when step 287 rests upon the upper side of arm 276, said cam plates assume an intermediate position. In order to release the arm 276, from the finger 284, the curved fin er 282, is provided secured to shaft 280, and in the path'of finger 289 which revolves with the cam. Upon the side of arm 276, is a post290, having its outer end notched at 291, to receive the bend 292, of the leaf spring 293, fastenedto the slotted link294, which is attached to the end of the yoke arm 156. When the spring bend 292, engages the notch 291, the arm 276, is moved sufficiently to bring the cam plates 273, 274, to their intermediate position, but the engagement is not positive enough to preventsaid action of post 275, which takes place when post 169,- comes in contact with the top of pattern jack 186. When such is the case spring 293, merely guides over notch 291.

Plating cam 265 which serves to lift the needles to take yarn from the guide 50 when the jacks 211 are not in use, is substantially the same in construction and operation as that shown in my Patent No. 753,260, referred to above. A lever 295, is pivoted at one end about the screw "296, and has its arm from being lowered still more under the 

